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Rodriguezleiva and Tributsch detected that the range of the thick

Rodriguezleiva and Tributsch detected that the range of the thickness of the EPS was from 10 nm to 100 nm and the EPS thickness of At. ferrooxidans was estimated to be 28.7 nm (±13.5) based on the analysis of AFM [128]. Ohmura et al. found the Acidithiobacillus ferrooxidans was more likely to attach to sulphides that contain iron [129]. Solari et al. proposed that the adhesion rate of inoculum

would be elevated if the pH was reduced due to the change of the bacterial hydrophobicity http://www.selleckchem.com/products/BEZ235.html in specific pH environment. Edwards and Rutenberg summarized that the small alterations of local surface in according to bacterial metabolism could strongly affect the parameters of local adhesion [130]. Flemming and Wingender presented that the formation of bacterial biofilm was accompanied by the obvious augment in production of EPS [131]. Microbial attachment and biofilm formation provide a mechanism through which the microorganism can locate itself near an energy source. selleck It is widely accepted that the passivation of the surface of metal sulfide (e.g., chalcopyrite) is the main reason for the low leaching rate. The elemental S and jarosite are vital components for the formation. S can be formed by oxidizing the surface of sulphide and following intermediate through using Fe3+ and S-oxidizing bacteria.

Actually, in low redox conditions, elemental S in chalcopyrite surfaces can also be formed through reduction reactions [132]. The equations of the reduction of chalcopyrite are listed as followed, equation(24) CuFeS2+Fe2++Cu2++2H+→Cu2S+2Fe3++H2SCuFeS2+Fe2++Cu2++2H+→Cu2S+2Fe3++H2S equation(25) Cu2S+4Fe3+→2Cu2++4Fe2++S0Cu2S+4Fe3+→2Cu2++4Fe2++S0 equation(26) H2S+2Fe3+→2Fe2++2H++S0H2S+2Fe3+→2Fe2++2H++S0 At the middle or end of the process of bioleaching, the concentrations of Fe3+ and SO42− reached at a certain height which facilitated the production of jarosite

precipitation with cations like K+, Na+ , NH4+ or H3O+H3O+[133]. Sasaki et al. analyzed the secondary minerals with A. ferrooxidans by using spectroscopy, from Fourier transform infrared (FT-IR) and XRD and found that the potassium jarosite was firstly found during the process of leaching, then CuS was paid attention and S was detected in the leached residue [134]. The equation of the formation of the jarosite is listed as followed, equation(27) 3Fe3++2SO42++6H2O+M+→MFe3(SO)2(OH)6+6H+ Gonzalez et al. showed that the formation of biofilm on surfaces of sulfur or pyrite could be enhanced by adding C-14 AHL, which caused the obvious increase of EPS [15]. A. ferrooxidans is one of the most used bacteria for the studies on the genome and genetic information of bioleaching bacteria [135]. Some genes of Acidithiobacillus ferrooxidans was found resemble with those of Escherichia coli .